Gas-making apparatus



T. W. STONE GAS MAK1NG APPARATUS Mayzz, 1928. 1,671,093

Filed Aug. 5. 1921 6 Sheets-Sheet 1 May 22 ft v T. w. STONE GAS MAKING APPARATUS 6 Sheets-Sheet 2 Filed Aug. 5. 1921 May 22, 192s. 1,671,093

T. W. STONE GAS MAKING APPARATUS Filed Aug. 5. 1.921 .e sheets-sheet 5 SUPER HEHTER CHRBURE'T'OR BLHST OIL SPRHY MHIN VHLVE HTO R BLHST May 22, 1928.

md Aug. 5. 1921 6 Shecs-Sheet 4 May 22, 192s. 1,671,093

T. W. STONE GAS MAKING'APPARATUS .5, 1921' 6 sheets-sheet 5 Fil May 22, 1928. v v 1,671,093 T. w. rSTONE GAS MAKING APPARATUS Filed 1921 e sheets-Sheet e 0 Q YH UNiTED sTATEs lPatented Mayv v22, V1928.

PATENT OFFICE.

THOMAS w. STONE, or 'Eon'r WAYNE, INDIANA, AssIeNon To wEsTEnN eAs coN- s'rnUc'rIoN COMPANY, orv rom WAYNE, INDIANA, A coaroa'A'rIoN'oIr- INDIANA.

GAS-KLRING APPARATUS.

Application filed August 5, 1921. Serial No. 490,088.

This invention relates to gas making apparatus, such as water gas sets; the Invention has for obJects to provide an lmproved and ciiicientvalve operating mechanismwhich will eiiect the operation of the several valves in the proper sequence required 1n the operation of such machines, and to provide for regulation of the valve operating mechanism in such .manner that the time intervals between successive valve operations may be varied as desired, thereby permitting the .duration of the several operating stages of the set to be changed individually at will, with the result that the machine maybe `quickly adjusted to conform to different operating conditions or to vary the product.

ln addition to the general objects recit/ed above, the invention has for other objects such improvements and advantages In construction and operation as are found to obtain in the structures and devices hereinafter described or claimed..

1n the accompanying drawings forming a part of this speciticatlon and showing, or purposes of exemplilication, preferred forms and manners in which the invention may be embodied and practiced, but without limiting the claimed invention to such illustrative instance or instances:

Figure 1 is a' plan view oi a valve operating mechanism constructed in accordance with the invention;

Fig. 2 is a vert-ical sectional elevationv taken longitudinally of the main valve cylinder, as indicated by the line 2-2 of Fig. 1; Fig. 3 is a transverse section taken on the line '3-3 of Fig. 1;

Fic'. i is a transversev section taken on the line 4-4 of Fig. '1;

Fig. 5 is a transverse section taken on the line 5-5 of Fig. 1;

Fig. 6 is a detailed horizontal longitudinal section taken on the line 6-6 of Fig. 4;

Fig-.7 is an elevational view of a water gas set equipped with a valve operating mechanism such as illustrated in the precedina figures.

Fig. 8 is a lanview of the apparatus ilvlustrated in ig. 7

Fig. 9 is a plan view of the modified form of valve operating mechanism; and

Fig. 10 isa longitudinal sectional elevation of the mechanism shown in Fig. 9, the view being taken on the line lQ-lO of Fig. 9t

In the illustrated embodiment of the 'invention the valve operating' mechanism is applied to ya water gas set. For convenience the present description will be confined t'o this use of the invention Features of the improved valve o erating mechanism are, however, capable o other valuable applications; consequently the scope of the invention is not confined to the specific use and specific embodiment herein described as an illustrative example.

Referring to the drawings, and more particularly to Figs. 7 and 8, there is shown a carburetted water gas set, said ap aratus embodying in its construction the fo lowing essential elements:

The water gas generator 11 provided with the usual chamber for carbonaceous fuel is connected by means of the discharge pipe section 12 with a carburetor 13. The latter in turn is connected at its bottom b the discharge passageway 14 with a super eater 15. The carburetor and superheater are of the well known constructions embodying essentially two chambers lilled with checkerbrick for storing up heat while the air blast is on, the heat so stored in the checkerbrick being employed in the gas carburetion and 4xing in the subsequent steam run. At the top of the superheater 15, there is provided a discharge pipe 16 having a branch 17 the latter leadingr to a water seal 18. The water seal 18 is in turn connected by means of a discharge pipe v19 with a scrubber 20, seeFig. 8; said scrubber 20 is connected by a pipe section 2l with the condenser 22 from which the gas asses through outlet 20 to be 'further treate stored,`.or used.

` Thetop of the discharge pipe 16 leading from the superhcater may be opened and closed by the stack valve 23. Said ystack valve 23 consists essentially of a cover plate 24 adapted to -tit over the top of the discharge pipe 16 pivotally connected at 25 in a suitable upright 26. Connected with the cover plate 24at its pivotal point is an op- V erating link 27 the opposite end of which is pivoted to the upper end of a pressure-operated piston 28. The piston 28 is provided with the usual head, not shown, which works in a cylinder 30 and responds to pressure supplied to the u per end of the cylinder 30 to open the stac valve and conversely to pressure applied to the lower end of the cylinder to .close such stack valve Above 'be capa whereas, on "the down run, the steam enters at the top .of the generator and the resultant gas discharges from the bottom. This change in directlon in flow of the l'gas inthe generator is eected by means of the main or up-and-downrun valve 32. Said valve embodies in its construction pressure cylinder 33 within which works the usual iston,

` not"shown. The valve piston, it will e understood, controls a port 'in the pipe section 12 and a second port in connection with the vertical pipe 34, the latter being connected by means of va short pipe union to the lower end of the generator chamber. When the piston in the cylinder 33 is in the down' position, the pipe section 12 is open to permit passage of the gases from the upper end of the generator into the carburetor. Concurrently, the vertical pipe 34 is shut oi from the generator to prevent passage of gasfrom the lower end of the generator.

On reverse operation ofthe piston in the cylinder 33, the pipe section 12 is shut oif .from direct communication with the generator and placed in communication therewith by way of the vertical pipe 34, whereupon the gaseous products from the generator pass out its lower end into the carburetor 13.k The above mentioned change of direction of the steam from. up-flow to down-How is coincident .with the shift of the above mentioned main orup-and-down run valve 32,I because the steam-cock 125 between the up and down run steam lines 44 and 45 is, as usually, connected (by arms 126) with said main valvef operating mechanism, so that as said up-and-down run valve 32 is shifted it correspondingly turns said steam-cock 125 to shiftthe steanrflow into the up-run steam-line 44 or the downrun steam-line 45; andthe onandof steamcock 127 in the steam-supply line is, .as usually, operated by .a cyllnder 128 connected and 51, so thatsuch steam-cock closes when stack valve is open.

Extending horlzontally of the set is a. blast pipe 36 which leads t0 the vertical by fluid lines 129 and 130"with the ,stack valve operating mechanism llnes -50 pipe 34 and-fis-connecte'd therewith at a point located just above the short pipe union 35, but belowvthe up-and-down run valve connection in said vertical pipe 34. Also connected with the main blast pipe 36 is a branch 37 leading to the carburetor 13. Separate valves are provided for controlling the air blast' supplied by the pipe 36 to the generator and-the carburetor, namely, the generator blast valve 38 and a carburetor blastvalve 39. Both* of these valves are preferablyofthe gate type respectively provided with cylinders 4()j and 41, having pistons which in the up position operate to open the valves andin the down position operate to close the valves. For supplying oil to the carburetor during a steam run, there is provided Ian oil spray valve -42 operated by va similar piston which works in a cylmd'er 43. When the piston is in the up position in thecylinder 43 the supply of o1l' to,` the carburetor is cut olf and conversely, on reverse operation of the piston the supply of oil is admitted to the carbu-y retor. y

ln a carburetted watergas set, such as above briely described, the cycle of operation is as follows The up and `down run valve 32 is operated to the up-run position; theoil valve v42 is 'operated to cut oil tle supply of oil to the jcarburetor; the stack valve 23 is opened to permit the gases from the superheater to pass into the stack; the generator blast valve l38 is o enedl to, permit the air to pass into the ottom of the generator; the carburetor blast valve 39 is opened to permit a further supply of air to the carburetor. The operation of the valves in the above stated sequence is known as taking oli the run and putting on the blast. During the blast cycle of operation i the hot Iproducts of combustion from the genbrator pass out of the top of the generator into the carburetor, where any unconsumed, or partially consumed portion of Vthel as is burned in the secondary'- air supplied'gby the carburetor blast. The whole volumelof the hot products', of combustion passes. v-

through thecheckerbrick in the carburetor .and through the superheatcr to the stack,

thereby storing up in the carburetor and superheater aggreat amount ot heat furthe subsequent run.,4 As soon as the blast c vclc of operation is complete, the next operation of the cycle iscarred out, this being generally known as taking off the blast and putting on ythe run. The carburetor blast valve is closed; the generator blast valveis closed; the stack valvelis closed;l the oil spray valve is turned on; asthemainyalve is already in the u -run position, steam is admitted under t e incandescent-,fuel in the generator through the steam pipe 44 so'that the gas' passes out yof the topv of the generator into l the carburetor where it is enriched by oil valve 32 to the down-run position, wherewhich freelyl volatilizes-and intermixes with the blue water gas from the generator, while the mixture\ passes through the heated i checkerbrick in, the carburetor chamber and superheat'er chamber. Finally the gas discharges through the outlet 16 and the branch 17 of the Water seal 18 from which it passes to the scrubber 2O and the condenser 22. On completion of thc uprun, the down-run is commenced 'by next operating the Ina-in ing off the run and putting on' the blast in the sequence descri is again made. lill/'hercupon the several valves are operated in the blasting sequence hereinabove sct forth.

ln the operation of a water gas set, according to the above cycle, it is important that the valves be operated substantially ed above, that is to say-When taking ofi' the run and putting on the blast the up-and-down run or main valve niust be rst operated to the up-run position, the oil valve must next be closed,

the stack valve must next be opened and fol` lowed in sequence by opening of the lgenerator blast valve and carburetor blast valve. lt is important that the stack valve be in thc open position substantially concurrently with the opening of the generator blast and that, in turn, the generator blast valve be in the open osition before the carburetor blast valve 1s opened. Conversely, when taking ofi' the blast and putting on the run, it is important that the carburetor and generator blast valves be closed before the stack valve is closed. 'llhese considerations aie absolutely essential to the safe manipulation of the set for the obvious reason that if any of the blast valves be opened to any appreciable extent while the stack valve is closed,

the blast will be blown back into the scrubber and condenser Where it will mix with the gas and form an explosive mixture.

Accordingto the invention, there is provided an improved valve operating mechanism which effects automatic operation of the valves -in proper sequence during both the blast cycle and the run cycle. operating mechanism of the invention entirely dispenses with the necessity for manual operation of the several valves, although it may be employed, in a Water gas set, in conjunction with a manually controlled valve operating mechanism, such as dedcr.

The valve employing l will be entirely independent of the operation l of the other. A nd, by a simple shift, the valves may be elther operated manually .or operated automatically by'f the improved mechanism of the present` invention. When the generator is shut down, the fluid pressure to the automatic control is ovl-course also shut off; and 1n starting up again, or

Whenever the fluid pressure to the automatic control is shut off, the manual posi'- tioningy of any of the main apparatus valves causes a fluid-pressure reaction back into the automatic control and properly po-4 sitions the automatic control to continue the proper sequence of operations as soon as the operating 'fluid' pressure is restored to the automatic control.

Still referring to Figs. 7 and 8, the main up-and-doWn run valve 32 is controlled in its operation by fluid pressure lines 46 and 47, the line 46 leading to the top of the cylinder 33 and the line 47 leading to the bottom of said cylinder. The oil valve 42 is controlled in its'operation by fluid pressure lines 48 and 49, the line' 48 leading to the top of the cylindex' 43 and the line 49 leading to the bottom of said cylinder. The stack valve 23 is controlled in its operation by duid pressure lines 50 and 51 the line 50 leading to the top of the cylinder 30 and the line 51 leading to the bottom of said cylinder. The onand-off steam-cock or valve 127, is controlled by the same stack valve mechanism pressure lines 50 and 5l, through the lines 129 and 130 leading tothe cylinder 128 that shiftsv said valve 127;. and the adjacent reversing steam-cock 125, between the up-run steamline 44 and the down-run steam-line 45, is

connected, by arms 126, as before mentioned,

with the main up-and-down run valve 32 and is correspondingly shifted thereby in the usual Well-known manner. The generator blast valve 38 is controlled in its operation *by fluid pressure lines 52 and 53, the line 52 leading to the top of the cylinder 40 and the line 53 to the bottoni of said cylin- The carburetor blast valve 39 is controlled in its operation by fluid pressure lines 54 and 55. the line 54 leading to the top of the cylinder 41 and the' line 55 to the bottom of said cylinder.

Referring now more particularly to the form of the invention illustrated in Figs. 1 to 6 inclusive, there is provided at a. suitable control station, indicated atA C, in Figs. 7 and 8, a cylinder 56, to which the several fluid pressure lines hereinabove set forth lead; the cylinder 56 functions as a central power `station from which fluid pressure, such as oil, is released through the several fluidressure line connections from a sourcexv of fluld pressure supply, to operate the several valves in proper sequence during each cycle of operation of the gas making machine. As shown in Figs. 1 and A2, the cylinder 56 comprises a lefthand section 57 and a right-hand section 58. A discharge ipe 59 communicates by a port (iO-with the efthand section 57 of the cylinder 56, and a similar discharge pipe 61 communicates by a port 62 with the right-hand section 58 f said cylinder. The discharge pipes 59 and 161 are respectively located at the extreme left 'and right of the pressure line connections leading to said left and right hand sections of the cylinder. The fluid pressure`v line 46 to the top of the cylinder 33 of the main up-and-down run yvalve 32 leads from the left hand section 57 of the .cylinder 56,

l,with which it is communicably connected by means of a port 63, said port 63 being the next succeeding port to the right of the port 60. The fluid pressure line` 48 to the top of the oil spray valve cylinder 43 (see Fig. 7) also leads from said left hand section 57 with which it is communicably connected by a port 64 (see Fig. 2) said port being the next succeeding port to the right of the port 63. The fluid pressure line 51 to the bottom of the'cylinder 30 of the stack valve also leads from the left hand section 57, with which itv is communicably connected by a port 65, the' latter being 'the next succeeding port to the right of the port 64. The fluid pressure line 52 to the top of the `generator blast cylinder 40` (see Fig. 7.) also leads from theleft hand section 57, being communicably connected therewith by a port 66, (see Fig.2) which is the next succeeding port tothe right of the port 65 (see Fig. 6)., The fluid pressure line 54 leading to the top of the carburetor blast cylinder 41 is communicably connected With the left hand section 57 by a port 67th'e latter being the next succeeding port to the right of the port 66. The fluid pressure line 55 (see Fig. 7) to the bottom of the carburetor blast cylinder 41 leads from the right hand section 58 ofthe cylinder 56, with which it is communicably connected by means of a port 68, the latter being the next succeeding port to the left of the port 62 of the discharge line 61.

The Huid pressure Aline 53 to the bottom of thegenerator blast 40 ,leads from the right hand section 58 with which it is com-municably connected by a port 69, the latter succeeding port to the left of the port 68.v The fluid pressure line 50 to the top of? the stackvalve cylinder 30 leads from said right hand section 58 being communicably connected therewith by a port 70,

the latter being the next succeeding port to4 the left of the port v69. TheA iluld pressure to the lin`e149'tc the bottom of the oil spray valve/*- cylinder 43 leadsfrom said right hand section 58 being connected therewith by a port 71, the latter being the next succeedingV port left ofthe port 70. The fluid pressure line 47 to the bottom `of themain upi and-down run valve cylinder 33 also leads from the said. right hand section 58 and is communicably connected therewith by a port 72, the latter being the next succeeding4 port to the left of the port 71.

Within the cylinder 56 is a piston rod 73 provided with two spaced inner piston heads 74 and 75 and with two outer piston heads 76 and 77. The outer piston heads 76 and 77 respectively Work in the lefthand and right hand sections 57 and 58 of the cylinder 56 and respectively receive on their outer faces fluid pressure supplied to the left and right hand ends of said cylinder, fdr operating the ist-on assembly to the right or to the left 1n said cylinder.

tion 57 ofthe cylinder and controls the flow of lfluid pressure in succession throu h the valve ports 63,64,65, 66 and 67; w ereas the other inner piston head works in the right hand section 58 and controls in succession the flow through the ports'68, 69, 70, 71 and 72. c

The space between the inner faces of the two valve-controllin 75 functions as a eating chamber 78- in which is maintained a suppl of fluid-pressure for delivery to the iiui pressure lines The inner piston head 74 works in the left hand sec-` piston heads 74 and of the sever al valves controlled by thereciprocation of the piston assembly. Fluid pressure, such as oil under pressure, is fed to said sufpplT chamber 78 through the Ihighpressure ui suppl line 79 which leads to the chamber 78. T e `fluid may be kept at' the required pressure by means of a suitable pump. While it is not absolutely essential to employ oil as the motive power, the use of oil is preferable on account of its lubrieating effect on the arts of thevalve operating mechanism, with the result that little 1f any Iwear will take'place in the operation ofltllle device. b 7

uid pressure sup ly y the pipe 9 to the chamber 78 is utilized for the purpose of moving the piston 73 in the cylinder 56 and fluid pressure from this source-is alternately directed to the portion of the cylinder 57 to the left of the piston head 76 by.

means of a fluid pressure supply pipe 80 and to the portion of the cylinder 58 to the right.

of the piston head 77 by means of a fluid pressure supply pipe 81. The control of the flow of the motive fluid alternately to the supply pipes 80 and 81 is effected by means 'of a controlling valve mechanism mounted, as shown, on top ofthe main cylinder 56 and adapted to be reversed by thetravel of the piston 73 'over to its extreme left hand or right hand position in the cylinder. As shown in Fig. 2 and in Fig. 4, the floating chamber 78 communicates in all positions of the piston 73 with a lsupply chamber 82 formed by an extension 83 of the cylinder structure. This fluid pressure supply chamber 82 communicates-with a left hand controlling valve cylinder84 having a series ofl ports 85 which open up into the chamber 82, and also communicates with a right hand controlling valve cylinder 86 having a series of ports 87 which similarly open up into the aforesaid chamber 82. The fluid pressure supply pipe 80 to the left hand section 57 o the cylinder 56 `is connectedI with the left hand controlling valve cylinder 84 and the Huid pressure supply pipe 8l to the right hand section 58 of the cylinder 56 is connected to the right hand controlling valve cylinder 86. Working within the two controlling cylinders 84 and 86 is a valve piston 88 having at its left hand end spaced valve heads 89, 9() and 91 which control the flow through the valve cylinder 84 and at its right hand end spaced valve heads 92, 93 and 94 which control the flow through the valve cylinder 86.

Journaled within the chamber 82 is a short shaft 95 on which is mounted the valve operating arm 96, the latter having an operative connectionat 97 with the valve piston 88. The shaft 95 is operated by a coun terweighted arm 95n (Fig. 1). A swinging arm 98 is journaled on the shaft 95, and this arm is provided with a pair of oppositelydisposed lugs 99 and 100 which are respectively adapted to engage and swing the arm 96 to throw the arm 95'1 past dead-center during the movement of the arm 98 into either its extreme left hand or its extreme right hand position. The arm 98 extends below the shaft 95, as shown in Fig. 2, and

its lower end is engageablel with either oneof a pair of operating rollers 101 and 102 carried by the main piston 73 of the valve operating mechanism. During the right to left movement of the piston 73 theroller 102 engages the arm 98, toward the end of the stroke of the piston, and swings said arm 98 toward the left, which action is transmitted through the lufr 99 to the arm 96 to cause the counterweighted arm 95a to further swing the arm 96 and movev the valve piston 88 into position for uncovering the ports 85 of the left hand valve cylinder 84 and for simultaneously shutting off communication between the ports 87 .of the right hand cylinder and the interior of that cylinder. On

reverse travel of the piston 73, that is, from left to right the roller 101 engages the lower end of the arm 98 which, through the same connections, effects operation of the valve piston .88 to establish communication be'- tWeen the right hand valve cylinder 86 andy the fluid pressure supply chamber 82 and simultaneously to cut o communication from the left hand valve cylinder 84 and the pressure supply chamber 82.

When the parts are in the position'permitting fluid pressure to flow through the ports 85 of the left hand cylinder, as shown 1n Fig.l 2, the supply of fluid pressure from the chamber 82 passes through the su ply pipe 80 to the left hand section 57 o the main cylinder 56 to the left of the piston head 76 and the pressure fluid presses on head 76 and' causes the piston 73 to travel from left to right in said main cylinden Such movement of the piston 73 is, of course, ac-

"companied by a like movement of the piston .heads 74 and 75 in the same direction. As

the inner piston head 74 travels toward the right, the several ports 63, 64, 65, 66 and 67 of the left hand cylinder section 57 are successively, in the order above named, cut off from communication with the high pressure chamber 78 and placed in communication with the port 60 of the exhaust pipe 59. Concurrently with thethe above set forth operation, the concurrent travel of the other inner piston head 75 to the rightcuts olf the ports 72, 7l, 70, 69 and 68, successively in the order named, from communication with the port 62 of the exhaust pipe 61 and places such ports in communication with the hi h pressure chamber 78. The movement of t e piston 73 from left to right thus operates to reverse the supply of motive power (fluid pressure, such as oil under pressure) successively to each of the valve cylinders 33, 43, 30, 40 and 41 in the order named. lVhen the piston 73 nears the end vof its left-toright movement the roller 101 engages and moves, as hereinbefore described, the arm 98 to shift it and the arm 96 and the shaft 95 and the counterweight 95, which shifts the position of the piston 188 so that supply of pressure fluid to conduit 8O through ports 85 is cut off and concurrently supply of pressure fluid to conduit 81 through ports 87 is efl'ected, such reversal in flow causing the fluid to press on the head 77, instead of on the head 76, which moves the piston 73 in the other direction, to the left, and while so moving the oil i-n the chamber to the left of head 76 is being exhausted through needle valves 110 to the conduit 112, the rate of outflow of pressure fluid through the needle valves 110 determining the rate of' movement of the piston 73 as hereinafter described. On movement of the piston 73 from itsextreme right hand to its extreme left handr position the reverse action takes place, that is to say, the supply of fluid pressure is reversed/to the cylinders 41,r 40, 30, 43 and 33 of the apparatus valves. In accordance with the present arrangement, the operation of moving the piston 7 3from its left hand to its right hand position first throws the main valve to the up-run position (which,

as before mentioned, also opens the up--run steam line44), next shuts oil' the supply oit l, oil through the oil spray valve, next opens up the stack valve (and, as before mentioned, shuts o6 the steam supply to the generator), next turns on the air blast through the generator blast valve and then turns on the air blast through the carburetor blast valve. Conversely, the motion of' the piston 7 3 from right to left in the cylinder 56 first shuts olf the carburetor blast valve, then shuts oill the generator blast valve, then shuts oit the stack valve (and, as before mentioned, opens the main steam supply to the generator), then turns on the supply of oil through the oil spray valve, and then operates the main valve to the down-run position (which, as before mentioned, also opens the down-run steam line 45). Con sequently, the simple operations of' moving the piston 73 first to the right and then to the left in the cylinder 56 completes an entire cycle of runl and blast in a water gas machine. No manual valve operation whatever is required, the opening or closing of the several valves in their proper order for safe and efficient water gas productionbeing effected automatically by the reverse of ,fluid pressure to the supply connectionseffected by the simple movement of the piston 7 8.

The distance between adjacent pairs of pressure-line ports fin the left and right hand cylinder sections 57 and 58 initially determines the interval between the operations of any successively operated valves. Provision however, is made for effecting wide adjustments of the several intervening intervals between valve operations by adjustably varying the rate of movement of the piston heads 74 and 75 between any pair of adjacent ports independently of the rate of movement of said piston heads between any other pairs of adjacent ports. The outer piston heads 76 and 77 are respectively provided with hollow stems 103 (asshown atthe right of piston head 77 in Figs. 2 and 10), these stems respectively communicating with the interiors of the right and left hand cylinder sections 58 and 57 by means of ports 104 (as shown at the right of piston head 77 in Figs. 2 and 10). The stem 108 of eachpiston head 76 and 77 projects into a longitudinal chamber 105 formed in an extension 106 of the cylinder section l58 or 57. The longitudinal chamber 105 of each cylinder extension 106. is communicably connected with an exhaust cham- -ber 107 by means of a series ot exhaust ports 108, there being, in the embodiment of the invention illustrated in Figs. 1 to 8 inclusive seven of such ports 108. The outer end of each hollow stem 103 is provided with a series ot exhaust ports 109, and, as the movement of the piston head to which the stem 108 is connected causes the latter to move along in the chamber 105 the ports 109 are successively brought` `cylinder extension 106 is a series of needle valves 110, the latter respectively co-operating with the ports 108. Each needle valve provides 4an individual adjustment of the area of its respective port.y With this c011- struction, the rate of discharge of the exhaust in the different stages of travel ofthe piston 73 may be controlled and consequently the rate of movement of the piston in each stage, that is, between any two valve operations may bevaried independently of the titi rate of movement between other stages, with the result that small adjustments of the needle valves 110 are effective to vary the times between the operations of the several apparatus valves.

The exhaust pressure fluid fromV the right hand cylinder section 106 passes through an exhaust line 111 connected with the chamber 107- to the valve cylinder 86 and the exhaust pressure fluid from the corresponding chamber of the left hand extensionA 106 passes through an exhaust line 112 to the valve chamber '84. The valve chambers 84 and 86 ar"e respectively provided with a series of ports 113 and 114, which series are respectively adapted to be placed in comvmunication with fluid exhaust lines 115 and 116.- The flow through the yexhaust ports 118 and 114 is controlled by the heads 89 and 94 ot the valve piston 88 and the flow of the exhaust fluidinto the fluid pressure supply chamber 82 is prevented in all positions ot' the valve piston 88 by the valve heads 90 and 93. VVhenthe valve-` head 91 of' the chamber 84 is in position to open the ports 85 the valve head 94 of the chamber y86v is in position to open the ports 114, thereby permitting the exhaust fluid from the rightlhand section v58 of the cylinder to how into the pipe 116. On reverse of the valve, the left hand section 57 of the cylinder is connected with the exhaust fluid pipe '115 and the right hand section 58 of the cylinder is connected through the supply pipe 81 with the pressure fluid supply chamber 82.

In the form of the invention illustrated in Figs. 9 and 10, the fluid pressure, such as oil under pressure, supplied by the chamber 78 is utilized for the purpose of throwing the controlling piston 88. For this purcylinder is connected by a fluid pressure suppl pipe 117 with the left hand valve cylin er 84; similarly the right hand section 58 of the main cylinder is connected by va fluid pressure supply pipe 118 leading to the right hand valve cylinder 86. At its extreme vleft and right ends the valve piston 88 is provided with piston heads 119 and 120.`v l/Vith this construction, as the main piston rod 7 3 approaches t-he end'of its right to -needle valves 110 for; each cylinder extension 106. As shown in Fig. 9, the needle valves of one series of' each cylinder extenl valves of the other series.

sion are staggered with respect tothe -needle The needle valves of both series control ports 108 as hereinabove described, the double series of needle valves providing an exceedingly llexible adjustment of the` movement of the main piston 73 toward its several operating stages. In all other respects the apparatus illustrated in Figs. 9 and 10 is the same as that hereinabove described.

y The invention as hereinabove set4 forth is embodied in a particular form of construction but may be variously embodied within the scope of the claims hereinafter made.

I claim: v

1. In a sequence control apparatus for gas-making apparatus valves and their operating mechanisms that require to be actuated respectively in predetermined sequence, in combination: a fluid-pressure medium supply connection; fluid pressure lines respectively leading to the respective valveoperating mechanisms; and a control device that is directly inserted in th e flow-path from said supply connection to said linesl respectively and that itself admits and intercepts the flow of said pressure medium `through it to said lines in predetermined se quence and is movable as a unit in relation to Said lines and, by its movement in relation to said lines, itself determines the seguence in which the valves are loperated by uid pressure in said lines.

`2. In a. sequence control apparatus forv gas-making apparatus valves and their'operating mechanisms that require to be actuated respectively in predetermined seuence, in combination: a fluid-pressure meium supply connection; fluid pressure lines respectively leading to the respective valveoperatno mechanisms; acontrol device that is directly vinserted in the flow-path from said supply connection to said lines respectively and'that itself admits and intercepts the flow of said pressure medium through it' to said lines in predetermined sequence and is movable as a unit in relation to said lines and, by its movementin relationto said lines, itself determines the sequence iny which 'the valves are operated by fluid pressure in said lines; and means Ici--effecting said movement of the controldevice by fluid pressure. l l

3. In a sequence' control apparatus for gas-making apparatus valves and their operating mechanisms that require to `be actuated respectively" in predetermined sequeuce, in combination: a .fluid-pressure medium supply connection; fluid pressure lines respectively leading to the respective valve-l operating mechanisms; a control device that is directly inserted, in the flow-path from said supply connection to said lines respectively and that itself admits and intercepts the llow of said pressure medium through it to said lines in predetermined sequenceand is movable as a unit in relation'to said lines and, by its movement 1n relation to said lines, itself determines the sequence in which' the valves are operated by fluid pressure in said lines; means for effecting said movement of the control device by lluid pressure; and adjustable means for varying the time periods of the individual valve movements.

4. In a control device for gas-making apparatus valves, in combination: a powertransmission device adapted to be connected with a series of power lines respectively leading to and operating a plurality of such valves; and a unitary control member adapted to traverse said transmission device and successively an directly admit and intercept the flow o power through said transvmission device directly to said power lines;

whereby the sequence of operation of said power lines is positively and directly determined by said unitary control member.

5. In a control device for gas-making apparatus valves, in combination: a powertransmission device adapted to be connected with a series of power lines respectively leading to and operating a plurality of such valves; av unitary control member adapted to traverse said transmission device and successively and directly admit and intercept the llowof power through said transmission device directly to said power lines; and an adjustable timing device adapted to determine automatically the time periods of the operation of the power lines by said unitary lcontrol. member; whereby .automaticallytimed sequence of operation of said power lines is positively and directly determined `by said unitary control member in cooperation with said timing device.

6. In a mechanism for effecting the operation of a plurality of sequence operated apparatus valves of a water gas set, in combination: a separate fluid-pressure actuated 'means for operating eachV of said apparatus le control valve having a pluvalves, a sin rality of di erent operative positions; and communicating therewith a corresponding series of connections respectively for supplying motive fluid to and exhaustingit from the respective different fluid-pressure actuatedl means to open 'and close said apparatus valves respectively in predetermined, sequence as said control valve is adjusted back and forth through its different operative positions.

7 In a mechanism for effecting the o eration of a plurality of sequence operate apparatus valves of a water gas set, in combination: a separate fluid-pressure actuated means for operating each of said apparatus valves, a single control valve having a plu# -and forth through its different operative positions, and means for varying the ind1- vidual time periods of the valve operations. 8. In a sequence control apparatus for gas-making apparatus valves and their operating mechanisms that require to be actuated respectively in predetermined sequence, in combination: a fluid-pressure medium supply connection; fluid pressure lines respectively leading to the respective valve-operating mechanisms; a control device that is l supply connection to directly inserted in the flow-path from said said lines respectively and that itself .admits and intercepts the flow of said pressure medium through it to said lines in predetermined sequence and is movable as a unit in relation to said lines and, by its movement in relation to said lines, itself determines the sequence in which the valves are operated by fluid pressure in said lines; valve controlled means for effecting fluid pressure operation of the control device; and liquid exhaust chambers having a series of orifices throu h which exhaust liquid flows in succession for controlling the rate of moven'ient of said control device.

9. In a sequence control apparatus for gas-making apparatus valves and their operating mechanisms that require to be actuated respectively in predetermined sequence, in combination: a fluid-pressure medium supply connection; fluid pressure lines respectively leading to the respective valveoperating mechanisms; a control. device that is directly inserted in the flow-path from said supply connection to said lines respectivelv and that itself admits and intercepts the flow of said pressure medium through it to said lines in predetermined sequence and Ply is movable as a unit in relation to said lines and, by its movement in relation to said lines, itself determines the sequence in which f 10. In a sequence control apparatus for gas-making apparatus valves and their operating mechanisms that requlre to be actuated res ectively in predetermined sequence,

in com inatiou; a fluid-pressure medium supply connection; fluid pressure lines respectively leading to the respective valve-operatin mechanisms; a control device that is direct y inserted in the flow-path from said supply connection to said lines respectively and that itself admits and intercepts the flow of said pressure medium through it to said lines in predetermined sequence and is movable as .a unit in relation to said lines and, .by its movement in relation to said lines, itself determines the sequence in which the valves are operated by fluidl pressure 1n said lines; means for effecting fluid pressure op-` eration of the 'control device; li uid exhaust chamber havinffv a series of ori ces through which exhaust Iliquid flows in succession for controlling the rate of movement of said control device; an auxiliary cylinder having a device therein to automatically regulate the direction of flow of fluid pressure to and from said means for effecting fluid pressure operation of the control device.

11. In a sequence control apparatus f or gas-making apparatus valves and their operating mechanisms that require to be actuated respectively 1n predetermined se luence, in eombinationra fluid-pressure me ium supconnection; fluid pressure lines respectively leading to the respective valve-operating mechanisms; a control device that is directly inserted in the flow-path from said supply connection to said lines respectively and ,that itself admits and intercepts the flow of said pressure medium through it to said lines in predetermined sequence and is movable as a unit in relation to said lines and, by its movement in relation to said lines, itself determines the sequence in which the valves are operated by fluid ressure in` said lines; means for effecting flulid pressure operation of the control device; liquid exhaust chamber having a seriesof orifices through Which exhaust liquid flows in succession for controlling the rate of movement of said control device; an auxiliaryv cylinder having a piston therein to automatically regulate the direction of flow of fluid pressure to and from said means'for effecting y Lemons fluid pressure operation of the `control device; and fluid pressure lines leading from said' supply connection to said auxiliary cylinder-and controlled by. said control device for supply of fiuid pressure to the piston withinsaid auxiliary cylinder whereby said control device automatically operates the piston in said auxiliary cylinder to auto- 4matically regulate' the direction of flow of fluid pressure to operate the control device.-

12. In a sequence control apparatus for gas-making apparatus'valves and their operating mechanisms that require to be actuated v respectively in predetermined se uence, in

and, by its movement in relationto said' lines, itself determines the sequence in which the valves are operated by fluid ressure in said lines; means for effecting fluid pressure operation of the control device; and an auxiliary cylinder having a piston therein i to automatically regulate the direction of How of fluid pressure to and from' said means for effecting Huid pressure operation vof said control device. Y

13. In a sequence control ap aratus. for gas-making apparatus valves an their operating mechanisms that require to be actuated respectively in predetermined sequence, in combination: a fluid-pressure medium supply connection; fluid`pressure lines respectively leading to the respective valveoperating mechanisms; a control device that is directly inserted in the How-path from said supply connection to said lines respectively and that itself admits and intercepts the flow of said pressure medium through it to said lines in predetermined sequence and is movable as a unit in relation to said lines and, by its movement in relation to said lines, itself determines the sequence in which the valves are operated by fluid pressure in said lines; means for effecting fluid pressure operation of the control device, an auxiliary cylinder having a piston therein to automatically regulate the direction of flow of fluid pressure to and from said means for effecting fluid pressure operation of said control device; fluid pressure lines leading to said auxiliary cylinder for fluid operation of the piston therein, said fluid pressure lines i being controlled by said control device,

whereby saidv control .device automatically controls said auxiliary -cylinder piston.

14. In ai carburetted water-gas set embodying, with its generator and carburetter and superheater, an up-and-down run valve mechanism and Asteam connections, an oil valve mechanism, a stack valve mechanism, a enerator blast valve mechanism, and a. car uretter blast valve mechanism, 1n combination: a source of fluid pressure for supplying motive power to operate the respective valve mechanisms;.fluid pressure lines leadingl to the respective valve-operating mechanisms; a fluidressure operated control device that is dlrectly inserted in the flow-path to said lines and that has a plu- -rallty of different operative positions for releasing fluid pressure intermittently from said source to said fluid pressure lines leadlng to said valve mechanisms in the above named sequence as said device is adjusted b ack and forth through its different positions; means for varying individually the rate of movement of said control device be tween each valve operation and the succeeding valve operation, to vary individually the time intervals between valve operations; and means, operable after a sequence of such valve operations for effectin reverse operation of the aforesaid contro 'device to effect operation of said valve mechanisms in reverse sequence; substantially as specified: l

15. In a carburetted wateras set em-A bodying, with its generator an carburetter and superheater, an up-and-down run valve mechanism` and steam connections, an oil valve mechanism, a stack valve mechanism, a eneratorblast valve mechanism, and a caiiburetter blast valve mechanism, in combination :fa source of fluid pressure for supplying motive power to operate the respective valve mechanisms; fluid pressure lines leading to the respective valve-operating mechanism; a fluid pressure operated single control device that is directly inserted in the flow-path to said lines and that has a. plurality of different operative positions for releasing fluid pressure intermittently from said source to .said valve mechanisms in the above named sequence as said device is adjusted back and forth throu h its different positions; and means opera le after a sequence of such valve operations for effecting reverse operation of the aforesaid control device to effect operation of such valve mechanisms in reverse sequence; substantially ras specified. l

16. In a carburetted wateras set, comprising. a generator and car uretter and roesl superheater, in/ combination: an up-andlll ' sure linesand that is movable relative toalll of them for determining the sequence in` which' said fluid pressure lines receive fluid and that is reversel operable for effecting the o eration of said valve mechanisms in the a` ove named sequence and in the re-` verse sequence; substantially-as specified.

17. In a gas making apparatus having a plurality of valves that require to be actuated res ectively in predetermined sequence` in com ination: a plurality of independent valvel mechanisms operable in a predetermined order; a source of fiuid pressure `for supplying motive power to operate the respective valve mechanisms; fluid pressure lines leading to the respective valve-operating mechanisms; a fluid pressure operated control device that is directly inserted in the flow-path to said lines andthat has a plurality of different operative positions for releasing fluid .-pressure intermittently from said source to said valve mechanisms iny their predetermined order as said control device is adjusted through the flow paths to said lines; and means operable after the selquence of such valve operations for effecting reverse operation of the aforesaid control device to eEect operation of said valve mechnisms in reverse order; substantially asf specified.

18. In a gas making apparatus having a i plurality of valves that re uire to be actuated respectively in pre etermined se` quence, in combination: a plurality of independent valve mechanisms 'operable in a predetermined order; a' source of fluid'pressure for supplying motive power to operate the respective valve mechanisms.; fluid pressure lines leading to the respective valve-operating mechanisms; a fluid pressure operated 'control device ,that is directly inserted in the flow-path to said lines and that has a plurality of different operative positions for releasing fluid pressure intermittently from' said source to said valve mechanisms in their l redetermined order as'said control device is adjusted through the flow paths to said lines; means for varying individually the rate of movement of said control deviceI between eachsaid valve operation and the succeeding valve operation` to vary individually the time intervals between valve operations; and means, operable after a sequence of such valve operations, Afor effecting reverse operation of the aforesaid control device. to effect reverse operation 'of said valve mecha` nismssubstantially as specified.`

19. ln a gas making apparatus havinga plurality of valves that require to be actuated respectively in redetermined sequence,

the respective valve-operating mechanisms; a fluid pressure operated element that is directly insertedA inthe flow-path to said lines and that has a plurality of different operative' positions for effecting the opera-` tion ofA said valves in said'predetermined' mined order; fluid pressure lines leading to n such va'lve mechanisms; substantially as specified.

20.,I1r agas making apparatus having a plurality of valves that require to be actuated respectively in predetermined sequence, in combination: a plurality of individual valve mechanisms operable in a redetervmined order; fluid pressure supply ine connections for effecting theoperation of said valve mechanisms; and a pressure operated piston itself controlling the flowof fluid pressure to and from all saidgsupply line Y connectionsand that is movable as a unit in relation to said-line connections and, by its movement in relationlto said line connections, itself determines the sequence in which the valves are operated by fluid 1pressure in said 'line connections; substantie y fied. "I

21. nautomatically controlled water gasy set comprisin ka combination of -water gasl carburetter and superheatei" generator an and their apparatus valves and the respective/operating mechanisms of said valves, a series of fluid pressure lines r ctively leading to said valve-operating mec anisms, a Huid-pressure medium sup ly connection, a controlling device that is dlrectly inserted in the. flow-path from said sup ly connectionto said linesrespectively an that itself admits and intercepts the flow of said presiA sure medium through iit to said lines in predetermined sequence a/nd is movable as a 'unit in relation to 'said lines and, by its as specimovement in relationl to vsaid, lines, itself determines the sequence in Which the said apparatus valvesl are operated by fluid pressure in said lines, and meansfor varying individually the rate of movement of. said control device between each said valve operation andthe succeedin valve-operation and so varying individual y the time intervals between the valve operationswhose selis in combination: a p urality of independent quence is determined by the control device. l valve mechanisms operable in a predeter- 'rnoMAs w. s'roNn. i. 

